JP6780310B2 - How to make a golf club head - Google Patents

Description

The present invention relates to a method for manufacturing a golf club head and a golf club head.

Conventionally, the golf club head has been variously improved in order to improve the resilience performance. For example, in the golf club head of Patent Document 1, the repulsion performance is improved by adjusting the wall thickness of the crown portion.

Japanese Unexamined Patent Publication No. 2005-6698

By the way, since the upper limit of the repulsion performance is specified in the rules of golf such as R & A, the golf club head is designed so as not to exceed the specified upper limit value. However, in the manufacture of golf clubs, a manufacturing error occurs, and it is necessary to design the golf club head so that the repulsion performance in consideration of this error appears. Therefore, the design target value of resilience performance needs to be set considerably lower than the upper limit of the rule in consideration of the range of tolerances. Therefore, conventionally, it has been possible to manufacture only a golf club head that exhibits a repulsive performance considerably lower than the upper limit of the rule.

In order to solve this, for example, it is possible to polish the crown part and the face part after the predetermined manufacturing to manufacture a golf club head having a repulsion performance close to the upper limit of the rule. It was not realistic because it took a lot of time to manufacture.

The present invention has been made to solve this problem, and an object of the present invention is to provide a method for manufacturing a golf club head, which can easily manufacture a golf club head having a desired resilience performance.

The first method for manufacturing a golf club head according to the present invention includes a step of forming a golf club head having a face portion, a sole portion, a crown portion, and a hosel portion and having an internal space surrounded by these portions. By injecting the internal pressure adjusting medium into the internal space from at least one injection portion formed in at least one of the face portion, the sole portion, the crown portion, and the hosel portion, the internal pressure in the internal space is increased, and the internal pressure is increased. It includes a step of adjusting the repulsion evaluation value so that it is below the reference value.

The method for manufacturing a golf club head further includes a step of measuring the repulsion evaluation value in the golf club head prior to increasing the internal pressure, and the repulsion evaluation value is higher than the reference value. , The gas can be injected so that the repulsion evaluation value is equal to or less than the reference value.

In the method for manufacturing a golf club head, the molded golf club head can be designed so that the repulsion evaluation value is larger than the reference value.

In the method for manufacturing a golf club head, the molded golf club head is designed to represent the predetermined repulsion evaluation value, and the reference value is within the range of the tolerance of the predetermined repulsion evaluation value. Can be designed to be included.

In the method for manufacturing a golf club head, a check valve can be provided in the communication portion, and the check valve prevents gas from flowing out from the internal space to the outside, while preventing gas from flowing out from the outside to the inside. It can be configured to allow the inflow of gas into the space.

In the method for manufacturing a golf club head, a shaft of a golf club can be inserted into the hosel portion as the communication portion, and an insertion hole communicating with the internal space can be formed in the insertion hole. , The check valve can be attached.

In the method for manufacturing a golf club head, a weight member can be attached to the sole portion as the communication portion, and a mounting hole communicating with the internal space can be formed in the mounting hole, and the reverse is made. A check valve can be installed.

In the method for manufacturing a golf club head, the repulsion evaluation value can be calculated by measuring the thickness of the face portion of the golf club head.

The second method for manufacturing a golf club head according to the present invention includes a step of forming a golf club head having a face portion, a sole portion, a crown portion, and a hosel portion and having an internal space surrounded by these portions. By changing the internal pressure of the internal space, a third step of adjusting the repulsion evaluation value to a desired value, which represents the repulsion performance of the golf club head, is provided. In the present invention, for example, the repulsion evaluation value can be adjusted to a desired value by increasing the pressure in the internal space and making the internal space negative pressure.

In each of the above methods for manufacturing a golf club head, the internal pressure adjusting medium can be a gas.

The golf club head according to the present invention has a face portion, a sole portion, a crown portion, and a hosel portion, and also has an internal space surrounded by these and a communication portion communicating with the internal space. A check valve provided in the portion is provided, and the internal pressure of the internal space is adjusted by injecting gas into the internal space or sucking gas from the internal space through the check valve. The repulsion evaluation value indicating the repulsion performance of the golf club head body can be adjusted to a desired value. The golf club head main body according to the present invention has a configuration in which the check valve is removed from the golf club head.

According to the present invention, a golf club head having a desired resilience performance can be easily manufactured.

It is a perspective view which shows one Embodiment of the golf club head which concerns on this invention. It is a top view of FIG. It is a bottom view of FIG. FIG. 3 is a cross-sectional view taken along the line AA of FIG. It is a figure which shows an example of the assembly of a golf club head. It is a graph which shows the relationship between the internal pressure of a head and the natural frequency of a head. It is a graph which shows the relationship between the internal pressure of a head and the amount of change of CT. It is a graph which shows the relationship between the internal pressure of a head and the amount of change of COR. It is a graph which shows the change of CT in the state of normal pressure and the state of filling with internal pressure. It is a graph which shows the change of COR between the normal pressure state and the internal pressure filling state. It is a flowchart which shows the manufacturing process of a golf club head.

Hereinafter, an embodiment of the method for manufacturing a golf club head according to the present invention will be described with reference to the drawings. 1 is a perspective view of a golf club head according to the present embodiment, FIG. 2 is a plan view of FIG. 1, FIG. 3 is a bottom view of FIG. 1, and FIG. 4 is a sectional view taken along line AA of FIG. In the following, first, an outline of the golf club head will be described, and then a method of manufacturing the golf club head will be described.

<1. Overview of Golf Club Head>
As shown in FIGS. 1 to 4, the golf club head (hereinafter, may be simply referred to as “head”) 10 has a hollow structure having an internal space 18, and has a face portion 1, a crown portion 2, and a sole portion 3. , A side portion 4, and a hosel portion 5 form a wall surface.

The face portion 1 has a face surface which is a surface for hitting a ball, and the crown portion 2 is adjacent to the face portion 1 and constitutes an upper surface of the head. The sole portion 3 constitutes the bottom surface of the head and is adjacent to the face portion 1 and the side portion 4. Further, the side portion 4 is a portion between the crown portion 2 and the sole portion 3, and is a portion extending from the toe side of the face portion 1 to the heel side of the face portion 1 through the back side of the head. Further, the hosel portion 5 is a portion provided adjacent to the heel side of the crown portion 2, and has an insertion hole 51 into which a golf club shaft (not shown) is inserted. The central axis Z of the insertion hole 51 coincides with the axis of the shaft. The head described here is a wood type such as a driver (# 1) or a fairway wood, but the type is not limited and may be a so-called utility type or a hybrid type.

As shown in FIG. 4, the insertion hole 51 of the hosel portion 5 leads to the internal space 18 of the head, and the check valve 6 is attached to the inside of the insertion hole 51. The check valve 6 is known and prevents the outflow of gas from the internal space 18 to the outside, while allowing the inflow of gas from the outside into the internal space 18. Therefore, when gas is injected through the insertion hole 51, the check valve 6 is opened and the gas can be injected into the internal space 18, but once the injection is completed, the check valve 6 is closed. The inflow of gas from the internal space 18 to the outside is prevented.

As shown in FIG. 3, a circular recess 31 is formed in the sole portion 3, and a fixing hole 312 in which a female screw is formed is provided on the bottom surface 311 of the recess 31. Then, the weight member 7 is attached to the recess 31 as shown in the enlarged view in FIG.

In the present embodiment, the boundaries between the sole portion 3 and the face portion 1 and the sole portion 3 and the side portion 4 can be defined as follows. That is, when a ridge line is formed between the sole portion 3 and the face portion 1 and between the sole portion 3 and the side portion 4, this becomes a boundary. Further, the golf club head according to the present embodiment has the side portion 4, but for example, when the sole portion 3 is directly connected to the crown portion 2 without the side portion 4, the sole The ridgeline between the portion 3 and the crown portion 2 is the boundary between the two.

The upper limit of the volume of the head 10 is not particularly set, but practically, for example, 500 cm ³ or less is desirable, and 470 cm ³ or less is desirable when complying with R & A and USGA rule regulations.

Further, the head 10 can be formed of, for example, a titanium alloy (Ti-6Al-4V) having a specific gravity of about 4.4 to 4.5. In addition to the titanium alloy, for example, one or more of stainless steel, maraging steel, aluminum alloy, magnesium alloy, amorphous alloy and the like can be used for formation. Such a golf club head can be manufactured by various methods, and can be manufactured, for example, by casting such as a known lost wax precision casting method.

The head according to the present embodiment is configured by combining a head main body part having at least a sole portion 3 and other parts. For example, the head may be configured by forming only the face portion 1 as a separate member and attached to the main body part for the head, or the main body part for the head having openings in the crown portion 2 and the side portion 4 may be formed and the openings may be formed. The head can also be configured by closing the head with another member. For example, as shown in FIG. 5, a face part 20 having a cup face structure in which a peripheral edge portion 12 is provided around the face portion 1 can be attached to the opening 101 of the head main body part 100. At this time, the head body part 100 can be manufactured by casting, and the face part 20 can be manufactured by press working. Then, the face part 20 can be fixed to the head body part 100 by welding.

<2. Relationship between head internal pressure and repulsion performance>
Next, the relationship between the internal pressure of the golf club head and the repulsion performance will be described. As shown below, the present inventor has found that when the internal pressure of the head body increases, the repulsion performance decreases.

First, as shown in FIG. 6, the present inventor has found by FEM simulation that when the internal pressure of the golf club head increases, the natural frequency of the head increases. Further, since it is considered that the repulsion performance of the head decreases when the natural frequency increases in this way, the relationship between the internal pressure of the head and the repulsion performance is also examined by FEM simulation. Here, as the repulsion evaluation value for evaluating the repulsion performance, the COR (coefficient of restitution) defined by R & A and USGA and the amount of change in CT were used. The CT is measured as the characteristic time of the head (Characteristic Time) in accordance with the USGA's current pendulum test. Details of this pendulum test are described in the "Technical Description of the Pendulum Test" attached to the "Notic To Manufacturers" published by the USGA on February 24, 2003. The unit of CT is μs, and the larger the CT, the higher the repulsion performance tends to be. However, it is possible to adopt a repulsion evaluation value other than the above.

FIG. 7 is a graph showing the relationship between the internal pressure of the head and the amount of change in CT, and FIG. 8 is a graph showing the relationship between the internal pressure of the head and the amount of change in COR. From all the graphs, it can be seen that the higher the internal pressure, the lower the COR and CT. Therefore, it was found that the repulsion performance decreases as the internal pressure of the head increases.

When this point is verified using an actual golf club, it is as follows. Here, the internal space of a commercially available golf club head is not pressurized or depressurized (hereinafter referred to as normal pressure state), and the internal space of the golf club head is filled with gas and the internal pressure is high (hereinafter referred to as normal pressure state). COR and CT were measured in the state of internal pressure filling). The results are shown in FIGS. 9 and 10. As shown in FIG. 9, it was found that both CT and COR were higher in the normal pressure state in the internal pressure filled state and the normal pressure state. Therefore, it has been verified in both simulation and actual tests that the internal pressure affects the resilience performance of the golf club head.

<3. Golf club head manufacturing method>
Hereinafter, a method for manufacturing a golf club head having high repulsion performance will be described using the finding that the internal pressure of the head affects the repulsion performance as described above. First, regarding the resilience performance, it is stipulated in the R & A that "the tolerance must not exceed 239 μsec + tolerance 18 μsec" for CT (as of March 2016). Therefore, the golf club head is designed so as to obtain a resilience performance that complies with this rule. For example, the thickness, wall thickness distribution, material, structure, etc. of the face portion, the crown portion, and the sole portion are appropriately determined, and the golf club head is designed.

In manufacturing, a tolerance is generated from the CT obtained by the reference design (hereinafter referred to as the target CT). Therefore, the range of this tolerance should not exceed the upper limit value of the above-mentioned rule (hereinafter referred to as the upper limit CT). , It is necessary to set the target CT. However, in this design method, the CT of the golf club head actually manufactured is considerably lower than the upper limit CT in order not to exceed the upper limit CT in consideration of the tolerance. Therefore, sufficient resilience performance has not been obtained.

On the other hand, in the manufacturing method according to the present embodiment, the golf club head is designed so that the repulsion performance exceeding the upper limit CT can be obtained, and then the internal pressure of the golf club head is increased so that the CT becomes the upper limit CT. Adjust so that it becomes as follows. This point will be described with reference to the flowchart of FIG.

As shown in the figure, first, the golf club head is formed by the method as described above, and the check valve 6 is attached to the insertion hole 51 of the hosel portion 5 (step S1). Further, the mounting hole 31 of the sole portion 4 is also closed to seal the internal space 18 of the golf club head. Up to this point, processes such as polishing and painting have been completed. Next, the repulsion performance (repulsion evaluation value) of the golf club head is measured (step S2). For example, it is possible to measure CT or COR as described above, or it is possible to measure an alternative repulsion performance. For example, since the thickness at the center of the face portion 1 is closely related to the repulsion performance, the thickness at the center of the face portion 1 should be correlated with the CT, and the thickness of the face portion 1 should be measured and converted into CT. You can also. Table 1 below is an example.

That is, since CT and COR require time for measurement, the thickness of the face portion 1 is measured as an alternative to the measurement. The thickness of the face portion 1 can be measured in a few seconds by using, for example, a known ultrasonic thickness gauge. By measuring the thickness of the face portion 1 in this way, a repulsion evaluation value such as CT can be easily obtained.

Next, when the obtained repulsion evaluation value is not the target value for adjusting the internal pressure (NO in step S3) and is higher than the target value (for example, upper limit CT) (step S4). YES), a gas such as air is injected into the internal space 18 from the insertion hole 51 to increase the internal pressure (step S5). As a result, the repulsion evaluation value is lowered. Therefore, the gas is injected so that the repulsion evaluation value becomes the target value. At this time, for example, as shown in Table 2 below, the relationship between the internal pressure and the amount of change in CT is calculated in advance, and the gas is injected until the internal pressure reaches the upper limit CT or less. Since the once injected gas is prevented from being discharged to the outside by the check valve 6, the internal space 18 of the head is maintained at a predetermined internal pressure. On the other hand, when the repulsion evaluation value is lower than the target value (NO in step S4), the air in the internal space 18 is sucked from the insertion hole 51 and the internal pressure is lowered to reach the target value (step S6).

In this way, after adjusting the internal pressure of the head, the repulsion evaluation value is measured again (step S7), and if the target value is not reached (NO in step S8), the adjustment is performed again (steps S4 to S7). On the other hand, when the repulsion evaluation value is the target value (YES in step S8), the shaft is inserted into the mounting hole 51 and filled with an adhesive to seal the internal space (step S9). In this way, the production of the golf club head is completed. If the converted CT is the target value when the thickness of the face portion 1 is measured (YES in step S3), and if the internal space is sealed (step S9), the golf club head is manufactured. Is completed. The second measurement of the repulsion evaluation value (step S7) and its evaluation (step S8) may be omitted, and after adjusting the internal pressure (step S5 or S6), the internal space is sealed (step). S9), the production of the golf club head may be completed.

The procedure described above will be described below with specific numerical values. For example, assuming that the internal pressure of the golf club head is 1 atm, the upper limit CT is set to 237 μs in consideration of the tolerance, as shown in Table 3 below. In this case, for example, if the measured wall thickness at the center of the face portion 1 is 3.1 mm, the converted CT is 260 μs, so the CT must be lowered by 23 μs. In this case, since the internal pressure must be 15.5 atm, the gas may be injected so as to raise the internal pressure by 14.5 atm.

When the wall thickness of the face portion 1 is 3.51 mm, the converted CT is 236 μs, which is lower than the upper limit CT. Therefore, in this case, CT can be increased by lowering the internal pressure. Therefore, it can be adjusted so as to reduce the internal pressure.

<4. Features>
As described above, according to the present embodiment, it was found that there is a correlation between the internal pressure of the golf club head and the repulsive performance. Therefore, the repulsive performance of the golf club head can be adjusted by changing the internal pressure. .. Therefore, for example, if a golf club head designed to exhibit a repulsion performance exceeding the upper limit CT is manufactured, a gas is injected into the internal space after the fact, and the internal pressure is increased, the repulsion performance can be lowered. As a result, it is possible to easily manufacture a golf club head having a repulsion performance that is below the upper limit CT and extremely close to the upper limit CT. Therefore, according to the present embodiment, it is possible to easily manufacture a golf club head having high resilience performance while observing the rules.

<5. Modification example>
Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention. For example, the following changes can be made.

<5.1>
The gas to be injected to increase the internal pressure of the golf club head is not particularly limited, and various gases such as nitrogen, argon, and helium can be used in addition to air. In addition to the above gases, the internal pressure adjusting medium of the present invention includes foaming materials (for example, microballoons, thermally expandable microcapsules, specifically, for example, "Exepancel" manufactured by Nippon Philite Co., Ltd.). By injecting an expandable material such as, etc. into the internal space, the internal pressure of the internal space can be adjusted.

<5.2>
The design of the golf club head as described above can be performed from various viewpoints. For example, design a golf club head having a target CT such that the CT exceeds the upper limit CT, including the range of tolerance, and from here, inject gas to increase the internal pressure, and perform a CT that becomes less than or equal to the upper limit CT. The golf club head shown can be manufactured. Alternatively, a golf club head having a target CT such that the upper limit CT is included within the tolerance can be designed. Regarding this point, for example, the internal pressure that can be increased is determined by factors that affect the pressure resistance such as the structure and material of the golf club head, and therefore, how to set the target CT may be appropriately determined. ..

<5.3>
In the above embodiment, an example of manufacturing a golf club head showing a CT of the upper limit CT or less based on the rule has been shown, but the present invention is not limited to this, and a predetermined CT other than the rule or another repulsion evaluation value is used as a reference. Therefore, it is possible to manufacture a golf club head having a desired repulsion evaluation value lower than this. From this point of view, the internal pressure of the golf club head is adjusted to increase or decrease, that is, by decreasing the pressure in the internal space, for example, by making it a negative pressure, a golf club head showing a desired repulsion evaluation value is manufactured. can do.

<5.4>
In the above embodiment, the gas is injected through the insertion hole 51 of the hosel portion 5, but the injection portion where the gas is injected may be a portion other than this, for example, the weight member 7 in the sole portion 4. Air may be injected through the mounting hole 31. In this case, for example, the internal space can be sealed by attaching a check valve to the mounting hole 31 and adjusting the internal pressure, and then closing the mounting hole 31 with an adhesive or attaching a weight member 7. Further, the present invention is not particularly limited as long as the gas can be injected even in other places.

<5.5>
In the above embodiment, the check valve 6 is provided at the gas injection point, but a check valve may be used as long as the mechanism can prevent the gas from leaking after the gas is injected.

<5.6>
In the above embodiment, the repulsion evaluation value of CT, COR, etc. is calculated before the gas is injected, or the repulsion evaluation value of CT, COR, etc. is calculated based on the thickness of the face portion. It is also possible to inject a gas into the internal space without calculating the value, for example, so that the pressure value is calculated in advance. However, in this case, for example, it is premised that the thickness of the face portion does not vary, is uniform in all golf club heads, and shows substantially the same repulsion evaluation value. If such a golf club head can be manufactured, the repulsion performance can be adjusted only by adjusting the pressure value.

<5.7>
The mode of the golf club head according to the present invention is not particularly limited, and may have at least a face portion, a sole portion, a crown portion, and a hosel portion, and may be, for example, a mode in which a weight member is not attached. .. In this case, no mounting hole for the weight member is provided.

<5.8>
Although the wood type golf club has been described in the above embodiment, the method for manufacturing a golf club according to the present invention can be applied to other clubs as well. For example, it can be applied to the manufacture of a golf club having a hollow head including a so-called utility type and a hybrid type.

1 Face part 2 Crown part 4 Sole part 6 Check valve

Claims (8)

A step of forming a golf club head having a face portion, a sole portion, a crown portion, and a hosel portion and an internal space surrounded by these portions.
By injecting the internal pressure adjusting medium into the internal space from at least one communicating portion formed in at least one of the face portion, the sole portion, the crown portion, and the hosel portion, the internal pressure in the internal space is increased, and the internal pressure is increased. The step of adjusting the repulsion evaluation value, which represents the repulsion performance of the golf club head, so that it is below the standard value,
With
A method for manufacturing a golf club head, wherein the molded golf club head is designed so that the repulsion evaluation value is larger than the reference value. A step of obtaining the repulsion evaluation value in the golf club head is further provided prior to increasing the internal pressure.
The method for manufacturing a golf club head according to claim 1, wherein when the repulsion evaluation value is higher than the reference value, the internal pressure adjusting medium is injected so that the repulsion evaluation value is equal to or less than the reference value. A check valve is provided in the communication portion.
The check valve is configured to prevent the internal pressure adjusting medium from flowing out from the internal space to the outside, while allowing the internal pressure adjusting medium to flow from the outside into the internal space. Alternatively, the method for manufacturing a golf club head according to 2. As the communication portion, the shaft of the golf club is inserted into the hosel portion, and an insertion hole communicating with the internal space is formed.
The method for manufacturing a golf club head according to claim 3, wherein the check valve is attached to the insertion hole. As the communication portion, a weight member is attached to the sole portion, and an attachment hole communicating with the internal space is formed.
The method for manufacturing a golf club head according to claim 3, wherein the check valve is attached to the mounting hole. The method for manufacturing a golf club head according to any one of claims 1 to 5, wherein the repulsion evaluation value can be calculated by measuring the thickness of the face portion of the golf club head. A step of forming a golf club head having a face portion, a sole portion, a crown portion, and a hosel portion, and having an internal space surrounded by these and a hole communicating with the internal space .
A step of acquiring in advance the relationship between the repulsion evaluation value, which represents the repulsion performance of the golf club head, and the internal pressure of the internal space.
A repulsion evaluation value representing the repulsion performance of the golf club head is obtained by changing the internal pressure of the internal space by injecting the internal pressure adjusting medium into the internal space or sucking from the internal space through the hole. Steps to adjust to the desired value,
With
A method for manufacturing a golf club head, wherein the molded golf club head is designed so that the repulsion evaluation value is larger than the desired value. The method for manufacturing a golf club head according to any one of claims 1 to 7, wherein the internal pressure adjusting medium is a gas.